Instrumentation

The Catalysis Group at BNL is leading research initiatives into the development of new tools and techniques that focus on the characterization of heterogeneous catalytic reactions and catalysts using imaging, spectroscopy and scattering techniques and integrated combinations of them under reaction conditions to unravel the morphology, chemical and structural properties, of catalysts, respectively. These efforts revolve around the use of synchrotron radiation (NSLS), electrons (CFN) and quantum tunneling tools with particular thrusts into imaging, spectroscopy and scattering.


Groups Instrumentation(BNL)

  1. Three UHV chambers with diverse instrumentation for surface characterization: LEED, UPS, XPS, AES, TPD, ISS, PM-AP-IRRAS, Reactivity Cell. All the systems include ancillary instrumentation such as sputtering guns and metal evaporators. The IRRAS system was retrofitted with an ambient pressure (AP) cell on top of the UHV system. The sample can be prepared and characterized in UHV and then transfer in vacuum to the AP cell.
  2. Two STM chambers. One variable temperature scanning tunneling microscope (STM) that allows cooling of the surface to 30 K and heating to 800 K. We have just installed a second variable temperature STM that allows the fast acquisition of surface images with high resolution in-situ from 130K to 875K. Figure 1 shows the STM setup. In the inset is shown the ambient pressure cell containing the STM inside the UHV system. The load lock chamber in the left will be used to transfer samples with the vacuum transfer setup to the other AP systems.
  3. An ambient pressure (AP) cell integrated with the STM allows changing the conditions from UHV up to 760 Torr, while maintaining in-situ scanning capabilities up to 750 K at 1 Torr.
  4. Several high-vacuum/inert gas manifolds for synthesis and sample preparation


BNL Facilities:

National Synchrotron Light Source (NSLS)

  • Beamline U12a / U7a (Chem): XPS, NEXAFS for characterization of intermediates over model surfaces
  • Beamline U4b: XAS using soft X-rays for electronic structure of powder catalysts
  • Beamline U5UA: LEEM/PEEM of model catalysts (CFN)
  • Beamline X1A1: AP-XPS of model surfaces (CFN)
  • Beamline X7B (Chem): XRD / PDF in operando of powder catalysts
  • Beamline X8: Full field Transmission X-ray microscopy and tomography of powder catalysts
  • Beamline X17: PDF of powder catalysts
  • Beamline X18a / X18b / X19a: EXAFS/XANES of powder catalysts in operando and combined with DRIFTS and Raman (SCC)

Center for Functional Nanomaterials (CFN)

  • Electron microscopy facility: HRTEM, HAADF-STEM, ETEM of powder catalysts
  • Proximal probe facilities: LT-STM, V-STM, LEEM


Other User Facilities:

Advanced Photon Source (APS-ANL)

  • Beamline 9BMC : XANES and combined DRIFTS for in Operando study of powder catalysts
  • Beamline 11ID: PDF and combined DRIFTS for in Operando study of powder catalysts

Advanced Light Source (ALS-LBNL)

  • Beamline 9.3.2 : AP-XPS of model catalysts

Max-Lab (Lund, Sweden)

  • Beamline I511: AP-XPS of model catalysts


Computational Facilities

Our theoretical efforts are supported by the following set of computational tools and clusters:

1) The computational tools and approaches include (packages noted):

  • Quantum chemistry techniques including DFT based approaches as well as MP2, CASSCF, and coupled-cluster methods. (Turbomole, DMol3, NWChem, Q-Chem, Gaussian, SCM ADF)
  • KMC simulations of competing reaction pathways. (KINETIX, local)
    Nano cluster at CFN, BNL; Middle: BGQ at BNL; Right: HOPPER at NERSC, LBNL.
  • Solid-state techniques based on DFT, including ab initio molecular dynamics. (VASP, CASTEP, CP2K, Abinit, Quantum Espresso, SCM BAND)
  • Excited state techniques based on many-body perturbation theory. (Abinit, Yambo, Quantum Espresso, Vasp, local)
  • Classical molecular dynamics and coarse-grained simulations with empirical potentials. (LAMMPS, SCM Reactive MD with ReaxFF)

 2) The computational clusters include:

 

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Last Modified: October 25, 2013
Please forward all questions about this site to: Mahendra Kahanda